Protective case for articulating electronic device

ABSTRACT

A protective cover for a portable computing device includes a first hardshell component, a second hardshell component, and a hinging element. The first hardshell component removably snaps onto a first portion of the portable computing device to protect the first portion of the portable computing device. The second hardshell component removably snaps onto a second portion of the portable computing device to protect the second portion of the portable computing device. The hinging element comprises a flexible material and is attached to the first hardshell component and the second hardshell component such that the hinging element of the protective cover aligns with the hinging structure of the portable computing device. The hinging element flexes to allow the second portion of the portable computing device to remain articulable relative to the first portion of the portable computing device when the protective cover is installed on the portable computing device.

CROSS REFERENCE TO RELATED APPLICATIONS

This application is a continuation of U.S. patent application Ser. No.13/050,791, filed on Mar. 17, 2011, which claims priority to U.S.Provisional Patent Application 61/317,537, filed on Mar. 25, 2010, andto U.S. Provisional Patent Application 61/314,954, filed on Mar. 17,2010, all of which are hereby incorporated by reference in theirentireties.

BACKGROUND

Protective covers for handheld electronic devices, such as various typesof MP3 players, video players, cell phones, smart phones, satellitephones, walkie talkies, GPS navigational devices, telematics devices,pagers, monitors, personal data assistants, bar code scanners, as wellas various types of computers, including portable computers, laptopcomputers, handheld computers, ultra-mobile computers, tablet computers,and various hybrid devices that combine two or more of these functions,provide a valuable function in preventing damage to these handheldelectronic devices. Various types of protective cases are available thatprovide a varying amount of protection.

SUMMARY

A protective cover for a portable computing device includes a firsthardshell component, a second hardshell component, and a hingingelement. The portable computing device has at least a first portion anda second portion where the second portion is connected to the firstportion through a hinging structure such that the second portionarticulates relative to the first portion. The first hardshell componentof the protective cover removably snaps onto the first portion of theportable computing device to protect at least one surface of the firstportion of the portable computing device. The second hardshell componentremovably snaps onto the second portion of the portable computing deviceto protect at least one surface of the second portion of the portablecomputing device. The hinging element comprises a flexible material andis attached to the first hardshell component and the second hardshellcomponent such that the hinging element of the protective cover alignswith the hinging structure of the portable computing device. The hingingelement of the protective cover flexes to allow the second portion ofthe portable computing device to remain articulable relative to thefirst portion of the portable computing device when the protective coveris installed on the portable computing device.

This Summary is provided to introduce a selection of concepts in asimplified form that are further described below in the DetailedDescription. This Summary is not intended to identify key features oressential features of the claimed subject matter, nor is it intended tobe used to limit the scope of the claimed subject matter.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is an exploded view of an embodiment of a protective case and asliding/articulating handheld electronic device.

FIG. 2 is a perspective view of a hard plastic back shell of theembodiment of FIG. 1.

FIG. 3 is a perspective view of an assembled silicone layer and hardplastic back shell.

FIG. 4 is another perspective view of the assembled hard plastic backshell and silicone layer of the embodiment of FIG. 1, and thesliding/articulating handheld electronic device.

FIG. 5 is a perspective view of the hard plastic front shell of theembodiment of FIG. 1.

FIG. 6 is a perspective view of an embodiment of an articulatinghandheld electronic device.

FIG. 7 is a perspective view of an embodiment of a sliding handheldelectronic device.

FIG. 8 is an exploded view of another embodiment of a protective casefor a sliding/articulating handheld device.

FIG. 9 is a schematic isometric view of an embodiment of a protectivecase that includes an integrated silicone hinge.

FIG. 10 is a schematic isometric view of an embodiment of a handheldelectronic device.

FIG. 11 is a front view of the embodiment of FIG. 9.

FIG. 12 is a back view of the embodiment of FIG. 9.

FIG. 13 is an exploded view of the three pieces of the embodiment ofFIG. 9.

DETAILED DESCRIPTION

Many electronic devices are constructed with two pieces that may bejoined by hinges or various sliding mechanisms. Examples of such devicesmay be hand held mobile telephones, portable gaming devices, laptopcomputer, netbook computers, or other devices.

A protective cover or outer shell for these devices may be constructedwith two hard shell components, one for the front portion of theelectronic device and one for the rear portion. A silicone or otherflexible component may be held by one or both of the hard shellcomponents.

In some embodiments, the flexible component may be held by only one ofthe hard shell components. In an example of such an embodiment, theflexible component may be installed underneath the rear hard shellcomponent.

In some embodiments, the flexible component may be held or retained byboth hard shell components. In an example of such an embodiment, theflexible component may be retained by both hard shell components and theflexible component may have a portion that covers a hinge or othermechanism that may join the two portions of the electronic device.

The flexible component may have pads or other mechanisms that may allowa user to active a button on the electronic device when the cover isinstalled. Some embodiments may have removable covers for earphone portsor other electrical connectors as well.

In some embodiments, the protective cover may be a removable cover thatmay be installed and removed by a consumer. In such embodiments, theprotective cover may have logos, colors, or other designs that allow auser to personalize their electronic device. In such embodiments, theprotective cover may have snaps or other engagement mechanisms that maybe easily installed and removed by a consumer.

In other embodiments, the protective cover may not be a consumerinstalled cover. In such embodiments, the protective cover may beinstalled by the manufacturer of the electronic device and may be anintegral part of the electronic device. In such embodiments, theprotective cover may be installed using fasteners, adhesives, snaps, orother mechanisms for which a typical consumer may not have access orability to install or remove.

FIG. 1 is a perspective view of a protective case 100 and asliding/articulating handheld electronic device 104. Many handheldelectronic devices have a back portion 110 and a frontsliding/articulating front portion 112. Mobile phones, for example, mayhave a sliding front portion that may include a screen that slides to anopen position to access a keyboard. Other mobile phones may have a frontportion, such as sliding/articulating front portion 112, thatarticulates on hinges to expose a keyboard.

In order to provide a cover for both the back portion 110 and thesliding/articulating front portion 112, separate hard plastic shells,such as hard plastic front shell 102 and hard plastic back shell 108,can be utilized. However, plastic shells that attach directly to frontand back portions of handheld electronic devices often do not provide alarge amount of protection, especially against shocks from impacts. Inaddition, hard plastic shells may provide openings to operationalfeatures of the handheld electronic device that further reduces theprotection provided by hard plastic shells.

As illustrated in FIG. 1, the hard plastic front shell 102 has a seriesof hooks, such as front shell hooks 146, 148, 150, and other front shellhooks (not shown), on opposing sides of the hard plastic front shell102, that attach the hard plastic front shell 102 to thesliding/articulating front portion 112 of the sliding/articulatinghandheld electronic device 104.

The hard plastic front shell 102 may be constructed from thermoplasticpolymers and has a hardness generally in the range of 65 to 120 on theRockwell scale for HDPE, acrylic, PP, PVC, ABS, nylon, 10% GF PC. Anarrower range of 105-115 on the Rockwell scale can be used for ABS andPC. These ranges are exemplary only and may vary with specificmaterials. The thermoplastic polymers can be molded, die cast orotherwise formed to a desired shape. Other materials can also be usedfor the hard shell, including metals that can be formed or machined to adesired shape.

The hard plastic front shell 102 may attach directly to thesliding/articulating front portion 112 of the sliding/articulatinghandheld electronic device 104. The hard plastic front shell may allowthe sliding/articulating front portion 112 to slide or articulatebetween an open and closed position without interfering with thesliding/articulating motion provided by a sliding/articulating connector(not shown). The hard plastic front shell 102 may provide impactprotection and may have an elevated surface that may protect thesliding/articulating front portion of the sliding/articulating handheldelectronic device 104 from impacts.

As also illustrated in FIG. 1, a hard plastic back shell 108 has aplurality of back shell hooks 114, 116, 118, 120, 122, 124, 126, 128that attach the hard plastic back shell 108 to the back portion 110 ofthe sliding/articulating handheld electronic device 104. Again, themanner in which the back shell hooks 114-128 attach to the back portion110 of the sliding/articulating handheld electronic device 104 may notimpede the operation of the sliding/articulating front portion 112 ofthe sliding/articulating handheld electronic device 104.

The hard plastic back shell 108 also has a plurality of back shellopenings 152, 154, 156, 158, 160 that are aligned with electronic deviceoperational features 174, including buttons and ports, in thesliding/articulating handheld electronic device 104. The electronicdevice operational features 174 include the operational featuresillustrated in FIG. 1, as well as the device buttons 186, 188,illustrated in FIG. 4, and other operational features that may exist onthe sliding/articulating handheld electronic device 104. The hardplastic back shell 108 can be made from the same materials as the hardplastic front shell 102 with the same range of hardness.

As also illustrated in FIG. 1, a flexible silicone layer 106 is providedthat is disposed in the hard plastic back shell 108. The density of theflexible silicone layer ranges from 50 Shore A to 60 Shore A, but mayvary from 30 to 70 Shore A. In one embodiment, a range of 48-52 Shore Ais used.

The flexible silicone layer 106 is molded to fit directly into, and toconform closely to, the hard plastic back shell 108. The flexiblesilicone layer 106 has a plurality of silicone layer openings 130, 132,134, 136, 138, 140, 142, 144. Each of these silicone layer openings130-144 is aligned with back shell hooks 114-128, respectively.

Each of the back shell hooks 114-128 is recessed inwardly from the outeredge of the hard plastic back shell 108 so as to engage the siliconelayer openings 130-144. The back shell hooks 114-128 are insertedthrough the silicone layer openings 130-144 from the outside of theflexible silicone layer 106 and extend inwardly to the interior portionof the flexible silicone layer 106. In this fashion, the back shellhooks 114-128 are disposed inside of the flexible silicone layer 106,adjacent recessed portions, such as recessed portions 182, 184 inflexible silicone layer 106, which allows the back shell hooks 114-128to engage the back portion 110 of the sliding/articulating handheldelectronic device 104.

By inserting the recessed back shell hooks 114-128 through siliconelayer openings 130-144, the back shell hooks 114-128 are hidden by theflexible silicone layer 106 and a clean and decorative appearance isprovided from the outside of the hard plastic back shell 108. Also,since the back shell hooks 114-128 are recessed inwardly and theflexible silicone layer 106 is recessed outwardly, next to siliconelayer openings 130-144, such as recessed portions 182, 184, there islittle or no deflection of the flexible silicone layer 106 resultingfrom insertion of the back shell hooks, which further assists thecombination of the hard plastic back shell 108 and the flexible siliconelayer 106, to function as a single integrated unit.

Upon assembly, the hard plastic back shell 108 and the flexible siliconelayer 106 may be securely married together as a result of the mechanicalconnection between the recessed back shell hooks 114-128 and thesilicone layer openings 130-144, since the back shell hooks 114-128 areinserted through silicone layer openings 130-144. In this manner, theflexible silicone layer 106 appears to be part of the hard plastic backshell 108 and functions as a single integrated unit. As a result, theflexible silicone layer 106 can be made from a soft, flexible materialthat is more easily capable of absorbing shocks since deformation andmovement of the flexible silicone layer 106 away from the hard plasticback shell 108 is substantially restricted.

The back shell openings 152-160 are aligned with various portions of theflexible silicone layer 106, as disclosed in more detail below. As alsoshown in FIG. 1, silicone layer operational features 180 are disposed inthe flexible silicone layer 106 that are disposed in the back shellopenings 152-160 when the flexible silicone layer 106 is married to thehard plastic back shell 108. The silicone layer operational features 180generically refer to the various pads, portals, access panels and otheroperational features of the flexible silicone layer 106.

FIG. 2 is a schematic perspective view of the hard plastic back shell108. As illustrated in FIG. 2, the hard plastic back shell 108 includesa plurality of back shell hooks 114-128 that are recessed from the outersurface of the hard plastic back shell 108. The back shell hooks 114-128slide through the silicone layer openings 130-144 of flexible siliconelayer 106 (FIG. 1) and are hidden by the flexible silicone layer 106.The silicone layer operational features 180 are disposed in the backshell openings 152-160, as disclosed in more detail below, to preventthe entry of dust, dirt and moisture.

FIG. 3 is a schematic perspective view of the flexible silicone layer106 disposed in the hard plastic back shell 108. As shown in FIG. 3,back shell hooks 114, 116, 118 are inserted through silicone layeropenings 130, 132, 134 in the flexible silicone layer 106. Back shellhooks 114, 116, 118 are disposed on the interior portion of the flexiblesilicone layer 106 for attachment to the back portion 110 (FIG. 1) ofthe sliding/articulating handheld electronic device 104 (FIG. 1). Sincethe back shell hooks 114-118 are inserted through the silicone layeropenings 130-134, back shell hooks 114-118 are not visible from theexterior of the hard plastic back shell 108.

For example, as illustrated in FIG. 3, back shell hooks 120, 122, 124,126, 128 (FIGS. 1 and 2) are not visible since the flexible siliconelayer 106 hides the back shell hooks 120-128, as illustrated in FIG. 3.In this manner, the flexible silicone layer 106 and hard plastic backshell 108 appear as a single integrated unit. Further, back shell hooks114-128, when inserted through silicone layer openings 130-144, functionto securely hold the flexible silicone layer 106 to the hard plasticback shell 108 so that the combined structure functions as a singleintegrated unit. FIG. 3 also includes a pivoting access panel 178, whichprovides access to a port on the back portion 110.

FIG. 4 is an exploded view of the sliding/articulating handheldelectronic device 104 that is aligned with the flexible silicone layer106, which is married to the hard plastic back shell 108. As shown inFIG. 4, silicone pad 162 is disposed in back shell opening 152.Similarly, silicone pads 164, 166 are disposed in the back shell opening154. Silicone pads 162, 164, 166 comprise silicone layer operationalfeatures 180 (FIG. 1), as well as other operational features on theflexible silicone layer 106, such as device buttons 186, 188 that aredisclosed in FIG. 1.

The silicone layer operational features 180 interact with electronicdevice operational features 174. Specifically, silicone pad 162interacts with the device button 186, while silicone pads 164, 166interact with device button 188. Another silicone layer operationalfeature 180 comprises the silicone plug 172 that is inserted in a jack(not shown) in the back portion 110 of the sliding/articulating handheldelectronic device 104.

As also illustrated in FIG. 4, the back shell hook 122 extends throughthe silicone layer opening 136. Similarly, back shell hook 124 isinserted through the silicone layer opening 138. Back shell hook 126 issimilarly inserted through silicone layer opening 142, while back shellhook 128 is inserted through silicone layer opening 144. Each of theback shell hooks 114-128 (FIGS. 1 and 4) attach to an inner surface ofthe back portion 110 of the sliding/articulating handheld electronicdevice 104 to securely hold the assembled flexible silicone layer 106and hard plastic back shell 108 to the back portion 110 of thesliding/articulating handheld electronic device 104 without interferingwith the sliding motion of the sliding/articulating front portion 112(FIGS. 1 and 4) of the sliding/articulating handheld electronic device104.

FIG. 5 is a schematic perspective view of the hard plastic front shell102. As shown in FIG. 5, front shell hooks 148, 150, as well as otherfront shell hooks not illustrated in FIG. 5, securely attach to thesliding/articulating front portion 112 of the sliding/articulatinghandheld electronic device 104. The hard plastic front shell 102, aswell as the front shell hooks, do not interfere with thesliding/articulating motion of the sliding/articulating front portion112 of the sliding/articulating handheld electronic device 104.

FIG. 6 is a schematic perspective view of an articulating handheldelectronic device 600. As shown in FIG. 6, the front portion 602 swivelsaway from the back portion 604 to expose a keyboard 606. The frontportion, as illustrated in the embodiment of FIG. 6, includes a display608 that is disposed at an angle to the back portion 604 and keyboard606 to assist in viewing the information on display 608. The protectivecover 100 (FIG. 1) is attached to the front portion 602 and back portion604 in a manner that does not impede the articulating movement of thefront portion 602.

FIG. 7 is a schematic perspective view of a sliding handheld electronicdevice 700. As shown in FIG. 7, a front portion 702 slides away from aback portion 704 to expose the keyboard 706. A hard plastic front shell,such as hard plastic front shell 102 (FIG. 1), attaches to the frontportion 702 and does not interfere with the movement of the frontportion 702 with regard to the back portion 704. Similarly, a hardplastic back shell and flexible silicone layer, such as hard plasticback shell 108 (FIG. 1) and flexible silicone layer 106 (FIG. 1), attachto the back portion 704 and do not interfere with the articulatingmovement of the front portion 702 of the sliding handheld electronicdevice 700.

FIG. 8 is an exploded view of another embodiment of a protective case800 and a sliding/articulating handheld device 804. As illustrated inFIG. 8, a front flexible silicone layer 803 is disposed in hard plasticfront shell 802. The combined structure is then attached to the frontportion 812 of the handheld electronic device 804 with front shell hooks814, 816, 818. The back flexible silicone layer 806 is disposed in thehard plastic back shell 808 and attaches to the back portion 810 of thehandheld electronic device 804, in the same manner as disclosed withrespect to FIG. 1.

The protective case 800 provides additional protection to the frontportion 812 of the handheld electronic device 804 as a result of the useof the combined structure of the hard plastic front shell 802 and frontflexible silicone layer 803. Hence, a flexible silicone layer isdisposed under both the front plastic hard shell 802 and the hardplastic back shell 808 to provide additional protection to both thefront portion 812 and the back portion 810 of the handheld electronicdevice 804.

FIG. 9 is a schematic perspective view of an embodiment of a protectivecase 900 that may be used for a device with a hinge and where theflexible component of the protective case may cover or span the hingearea of the device.

As shown in FIG. 9, the protective cover 900 includes a front surfacehard plastic outer cover 902 that snaps onto the front face of ahandheld electronic device, such as a mobile phone. Similarly, a backsurface hard plastic outer cover 904 snaps onto the back surface of themobile phone, or other electronic device.

A silicone cover 922, that is soft and flexible, has a front portion 920that is disposed in the interior portion of the front surface hardplastic outer cover 902 and a back portion 906 that is disposed in backsurface hard plastic outer cover 904. A silicone hinge 908, thatconnects front and back portions of the silicone layer, is disposedbetween the front surface hard plastic cover 902 and the back surfacehard plastic outer cover 904, and hinges along silicone fold line 910.

FIG. 10 illustrates an example embodiment 900 that shows a protectivecover in a partially open position. The protective cover may come inthree parts: a front hard plastic cover 902, a back hard plastic cover904, and a silicone hinge 908.

In some embodiments, the silicone hinge 908 may be a separate, removablepiece that is installed first, then the front cover 902 and back cover904 may be installed on top of the silicone hinge 908.

In other embodiments, the silicone hinge 908 may be molded to one orboth of the front cover 902 and back cover 904. In such an embodiment,the silicone hinge 908 may be overmolded onto the back cover 904 and/orthe front cover 902. Some embodiments may use a two-shot moldingtechnique or a separate molding operation to mold the silicone hinge 908onto one or both of the covers.

As shown in FIG. 10, the embodiment 900, has a hinge 952 that hingesalong the left vertical side 954 of handheld electronic device 950. Theembodiment 900 may be a protective cover for a cellular telephone orother handheld mobile device. Openings 912, 914, illustrated in FIG. 9,allow a user to view activity and enter information into the electronicdevice. As also shown in FIG. 9, the silicone hinge 908 may include pads916 that assist the user in entering information into the side of thehandheld electronic device. The silicone hinge 908 provides protectionto the left side edge 954 of the handheld electronic device and allowsinformation to be entered into the handheld electronic device throughpads 916 on the left side edge 954 of the handheld electronic device,while the protective case 900 and the handheld electronic device are ina closed position.

In other words, the silicone hinge 908 allows access to buttons 958(FIG. 10) on the side 954 of the handheld electronic device when thehandheld electronic device and the protective case 900 are in a closedposition, and the silicone hinge 908 provides protection to the side ofthe handheld electronic device adjacent to the silicone hinge 908.Additionally, the front surface hard plastic outer cover 902 and theback surface hard plastic outer cover 904 provide additional protectionfrom impacts and help disperse impacts throughout the softer siliconelayer 922 that is disposed under the hard plastic covers 902, 904.

FIG. 11 is a front view of the embodiment of FIG. 9. As shown in FIG.11, the front surface hard plastic outer cover 902 has openings 912,914. The back portion 906 of the silicone inner cover 922 can be viewedthrough the openings 912, 914. In addition, pads 916 are shown as partof the silicone hinge 908 that interface with buttons 958 on thehandheld electronic device that is disposed in the protective case 900.

FIG. 12 is a back view of the protective case 900. As shown in FIG. 12,the back surface hard plastic outer cover 904 has an opening 918. Thefront portion 920 of the silicone inner cover 922 that is disposed in aninner portion of the front surface hard plastic outer cover 902 isvisible through the opening 918. As also illustrated in FIG. 3, the backsurface hard plastic outer layer 904 covers only a portion of the backsurface, so that silicone hinge 908 is partially exposed. In thismanner, silicone hinge 908 has a broad area to flex when the protectivecase 900 is in the open position.

Pads 916 allow activation of buttons 958 on the enclosed handheldelectronic device while the protective case 900 is in the closedposition. In this manner, the entire side of the enclosed electronicdevice is protected by the silicone hinge 908, while the pads 916 allowaccess to the enclosed handheld electronic device.

FIG. 13 is an exploded view of the three pieces of the embodiment ofFIG. 9. As shown in FIG. 13, the front surface hard plastic shell 902 isaligned to cover the front portion of the silicone cover 920. The backsurface hard plastic cover 904 is aligned to cover the back portion 906of the silicone cover 922. The silicone hinge 908 connects the frontportion 922 to the back portion 906 of the silicone cover 922.

Mechanical connectors 924 illustrate the manner in which the backsurface hard plastic cover 904 attaches to the back portion 956 (FIG.10) of the handheld electronic device. Similarly, front surface hardplastic shell 902 includes similar mechanical connectors (not shown)that connect the front surface hard plastic shell 902 to the frontportion 960 (FIG. 10) of the handheld electronic device.

As illustrated in FIG. 13, the silicone cover 922 is a continuous coverthat is disposed within the front surface hard plastic cover 902 and theback surface hard plastic cover 904, and extends around the side of thehandheld electronic device to provide protection to the front, back andside portions of the handheld electronic device. In this manner,protection is not only provided to the front and back faces, but also atthe location where the handheld electronic device 950 hinges, asillustrated in FIG. 10, with a continuous silicone cover.

As disclosed above, the connecting silicone hinge 908 includes pads 916(FIG. 9) that allow activation of buttons 958 (FIG. 10), while theprotective case 900 is in a closed position. In this manner, thesilicone cover 922 provides protection to the handheld electronic deviceand allows activation of buttons in the hinge area of the handheldelectronic device. Further, the combination of the hard plastic covers902, 904 that surround the softer silicone cover 922 provides asubstantial amount of protection to the handheld electronic device thatis not available from either the use of just a silicone cover or hardplastic covers.

The hard plastic covers 902, 904 protect the handheld electronic devicefrom sharp impacts. The shock of hard impacts is spread along thesurface of the hard plastic outer covers 902, 904, and is absorbed bythe silicone cover 922. In this manner, the combination of the hardplastic covers 902, 904 and the silicone cover 922 provides bothprotection and accessibility that has not been available to hinged typeof handheld electronic devices, such as flip phones.

Although the embodiment 900 is shown as a handheld electronic devicethat pivots along a side portion, a silicone hinge can also be providedon a top portion of a protective cover for handheld electronic devicesthat hinge along a top portion. Further, a silicone hinge can beprovided along a bottom portion of the protective cover for handheldelectronic devices that hinge along a bottom portion. Of course, thesilicone hinge can be employed on either side of the protective cover,depending upon which side the electronic device hinges.

The foregoing description of the invention has been presented forpurposes of illustration and description. It is not intended to beexhaustive or to limit the invention to the precise form disclosed, andother modifications and variations may be possible in light of the aboveteachings. The embodiment was chosen and described in order to bestexplain the principles of the invention and its practical application tothereby enable others skilled in the art to best utilize the inventionin various embodiments and various modifications as are suited to theparticular use contemplated. It is intended that the appended claims beconstrued to include other alternative embodiments of the inventionexcept insofar as limited by the prior art.

What is claimed is:
 1. A protective cover for a portable computingdevice, the portable computing device having a plastic shell thatincludes at least a first portion and a second portion, the secondportion of the plastic shell connected to the first portion of theplastic shell through a hinge such that the second portion of theplastic shell of the portable computing device articulates relative tothe first portion, the protective cover comprising: a first hardshellcomponent configured to removably attach to the first portion of theplastic shell of the portable computing device by snapping onto thefirst portion of the portable computing device to cover and protect atleast one surface of the first portion of the portable computing device;a second hardshell component configured to removably attach to thesecond portion of the plastic shell of the portable computing device bysnapping onto the second portion of the portable computing device tocover and protect at least one surface of the second portion of theportable computing device; and a silicone hinge attached to the firsthardshell component and the second hardshell component such that thesilicone hinge of the protective cover is configured to align with thehinge of the portable computing device when the first and the secondhardshell components are snapped onto the first and the second plasticshell portions of the portable computing device, respectively, whereinthe silicone hinge of the protective cover flexes to allow secondhardshell component to articulate relative to the first hardshellcomponent and enables the second portion of the portable computingdevice to remain articulable relative to the first portion of theportable computing device when the protective cover is installed on thefirst and second plastic shell portions of the portable computingdevice.
 2. The protective cover of claim 1 wherein the silicone hinge ofthe protective cover protects at least a portion of the hinge of theportable computing device when the protective cover is installed on theportable computing device.
 3. The protective cover of claim 1 whereinthe silicone hinge of the protective cover extends under at least one ofthe first and the second hardshell components to further protect atleast one of the first and the second portions of the plastic shell whenthe protective cover is installed on the portable computing device. 4.The protective cover of claim 1 wherein at least one of the firsthardshell component and the second hardshell component includes anopening providing access to a feature of the portable computing devicewhen the protective cover is installed on the portable computing device.5. The protective cover of claim 1 wherein the silicone hinge is moldedonto the first hardshell component and the second hardshell component.6. The protective cover of claim 1 wherein the silicone hinge iscomolded with at least one of the first hardshell component and thesecond hardshell component.
 7. The protective cover of claim 1 whereinthe silicone hinge includes one or more pads for accessing a button ofthe portable computing device.
 8. The protective cover of claim 1wherein the portable computing device is a smartphone.
 9. The protectivecover of claim 1 wherein the portable computing device is a laptopcomputer.
 10. The protective cover of claim 1 wherein the portablecomputing device is a tablet computer.
 11. The protective cover of claim1 wherein the first hardshell component protects at least a secondsurface of the first portion of the portable computing device when theprotective cover is installed on the portable computing device.
 12. Theprotective cover of claim 1 wherein the silicone hinge extends around toa side portion of the portable computing device to protect the sideportion when the protective cover is installed on the portable computingdevice.
 13. A case for protecting a portable electronic device, theportable electronic device having a plastic shell comprising a firstportion and a second portion that is hingedly attached to the firstportion with a hinging portion such that the second portion articulatesrelative to the first portion, the case comprising: a first hardshellmember removably attachable to the first portion of the plastic shell ofthe portable electronic device for protecting the first portion of theportable electronic device; a second hardshell member removablyattachable to the second portion of the plastic shell of the portableelectronic device for protecting the second portion of the portableelectronic device, wherein the first hardshell member and the secondhardshell member removably snap onto the first portion of the portableelectronic device and the second portion of the portable electronicdevice, respectively; and a flexible hinge member permanently affixed tothe first hardshell member and permanently affixed to the secondhardshell member, wherein the first hardshell member is attached to thesecond hardshell member through the flexible hinge member, and whereinthe flexible hinge member is in proximity to the hinging portion of theportable electronic device when the first and the second hardshellmembers of the case are attached to the respective first and secondshell portions of the portable electronic device, the flexible hingemember permitting articulation of the second portion of the portableelectronic device relative to the first portion of the portableelectronic device when the case is attached to the portable electronicdevice due to flexing of a flexible elastomeric material that comprisesthe flexible hinge member.
 14. The case of claim 13 wherein the flexiblehinge member of the case protects the hinging portion of the portableelectronic device when the case is attached to the portable electronicdevice.
 15. The case of claim 13 wherein the flexible elastomericmaterial comprises silicone.
 16. The case of claim 13 wherein theflexible hinge member extends around a side portion of the portableelectronic device to protect the side portion of the portable electronicdevice when the case is attached to the portable electronic device. 17.The case of claim 13 wherein the flexible hinge member of the case ismolded onto the first and the second hardshell members.
 18. The case ofclaim 17 wherein the flexible hinge member of the case is molded ontothe first and the second hardshell members using a two shot moldingprocess.
 19. A case for protecting a portable electronic device, theportable electronic device having a shell comprising a first portion anda second portion that is hingedly attached to the first portion with ahinging portion such that the second portion articulates relative to thefirst portion, the case comprising: a first hardshell member removablyattachable to the first portion of the shell of the portable electronicdevice for protecting the first portion of the portable electronicdevice; a second hardshell member removably attachable to the secondportion of the shell of the portable electronic device for protectingthe second portion of the portable electronic device; and a flexiblehinge member permanently affixed to the first hardshell member andpermanently affixed to the second hardshell member, wherein the firsthardshell member is attached to the second hardshell member through theflexible hinge member, wherein the flexible hinge member is in proximityto the hinging portion of the portable electronic device when the firstand the second hardshell members of the case are attached to therespective first and second shell portions of the portable electronicdevice, the flexible hinge member permitting articulation of the secondportion of the portable electronic device relative to the first portionof the portable electronic device when the case is attached to theportable electronic device due to flexing of a flexible elastomericmaterial that comprises the flexible hinge member, and wherein theflexible elastomeric material that comprises the flexible hinge memberextends under at least one of the first hardshell member and the secondhardshell member and between the at least one of the hardshell membersand a respective one of the first portion and the second portion of theshell of the portable electronic device when the case is attached to theportable electronic device.